The Flight Operation Procedures of the SIMBIO-SYS instrument aboard the BepiColombo ESA mission

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OA@INAF

The Flight Operation Procedures of the SIMBIO-SYS instrument

aboard the BepiColombo ESA mission

Title

ZUSI, MICHELE; SIMIONI, EMANUELE; DELLA CORTE,

VINCENZO; CICCHETTI, ANDREA; NOSCHESE, RAFFAELLA;

CAPACCIONI, FABRIZIO; CAPRIA, MARIA TERESA;

PALUMBO, PASQUALE; CREMONESE, Gabriele

Authors

IAPS Roma

Affiliation of first

author

http://hdl.handle.net/20.500.12386/23810;

http://dx.doi.org/10.20371/INAF/TechRep/15

Handle

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BC-SIM-TN-001

The Flight Operation Procedures of the

SIMBIO-SYS instrument aboard the

BepiColombo ESA mission

Michele Zusi

1

_{, Emanuele Simioni}

2

_{, Vincenzo Della Corte}

1

_{, Andrea Cicchetti}

1

_{, Raffaella Noschese}

1

_,

Fabrizio Capaccioni

1

_{, Maria Teresa Capria}

1

_{, Pasquale Palumbo}

3

_{, Gabriele Cremonese}

2

1

_{INAF-IAPS, Via Fosso del Cavaliere 100, 00133, Rome, Italy}

2

_{INAF-OAPD, Vicolo Osservatorio 5,35122, Padua, Italy}

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Sommario

1. Document Change record ... 5

2. Introduction ... 6

2.1. Scope ... 6

2.2. Reference Documents... 6

2.3. Acronyms ... 6

2.4. Document Organization... 7

3. SIMBIO-SYS FOP definition and description... 8

4. SIMBIO FOP ... 9

4.1. CRP ... 9

4.1.1. Summary ... 9

4.1.2. SIMBIO-SYS Emergency Switch Off by OBCP (SS-CRP-001) ... 11

4.1.3. SIMBIO-SYS Reset Output Buffer (SS-CRP-002) ... 12

4.1.4. SIMBIO-SYS Run Diagnostic Mode (SS-CRP-003) ... 13

4.1.5. SIMBIO-SYS HRIC Simulated Readout (SS-CRP-004) ... 15

4.1.6. SIMBIO-SYS STC Simulated Readout (SS-CRP-005) ... 17

4.1.7. SIMBIO-SYS VIHI Simulated Readout (SS-CRP-006) ... 19

4.1.8. SIMBIO-SYS Reaction to TM Out of Limits (SS-CRP-007) ... 21

4.1.9. SIMBIO-SYS Reaction to TM non-nominal Events (SS-CRP-008) ... 22

4.1.10. SIMBIO-SYS Manual Switch On (SS-CRP-009) ... 23

4.1.11. SIMBIO-SYS Manual Switch Off (SS-CRP-010) ... 26

4.1.12. SIMBIO-SYS Enable or Disable Science TM (SS-CRP-011) ... 28

4.1.13. Enabling or Disabling of S19 recovery (SS-CRP-012) ... 29

4.2. ENG ... 30

4.2.1. Summary ... 30

4.2.2. SIMBIO-SYS SW Maintenance (SS-ENG-001)... 32

4.2.3. SIMBIO-SYS HRIC Read - Write Address (SS-ENG-002) ... 35

4.2.4. SIMBIO-SYS STC Read - Write Address (SS-ENG-003) ... 36

4.2.5. SIMBIO-SYS VIHI Read - Write Address (SS-ENG-004) ... 37

4.2.6. SIMBIO-SYS Enable - Disable HKs (SS-ENG-005) ... 38

4.2.7. SIMBIO-SYS HRIC TEC Cooling Test (SS-ENG-007) ... 39

4.2.8. SIMBIO-SYS STC TEC Cooling Test (SS-ENG-008) ... 40

4.2.9. SIMBIO-SYS VIHI TEC Cooling Test (SS-ENG-009) ... 41

4.2.10. SIMBIO-SYS Connection Test and Max Length TC (SS-ENG-011) ... 42

4.2.11. SIMBIO-SYS check SW version and ASW Flight vs Lab version (SS-ENG-012) ... 43

4.3. FCP ... 45

4.3.1. Summary ... 45

4.3.2. SIMBIO-SYS ME Switch On by OBCP (SS-FCP-001) ... 58

4.3.3. SIMBIO-SYS ME Switch Off by OBCP (SS-FCP-002) ... 60

4.3.4. SIMBIO-SYS HK Report Collection interval (SS-FCP-003) ... 61

4.3.5. SIMBIO-SYS HRIC Off by OBCP (SS-FCP-004) ... 62

4.3.6. SIMBIO-SYS HRIC PE Detector TEC on by OBCP (SS-FCP-005)... 63

4.3.7. SIMBIO-SYS HRIC Start-Stop Science (SS-FCP-006) ... 64

4.3.8. SIMBIO-SYS STC Off by OBCP (SS-FCP-007) ... 67

4.3.9. SIMBIO-SYS STC PE Detector TEC On by OBCP (SS-FCP-008) ... 68

4.3.10. SIMBIO-SYS STC Start-Stop Science (SS-FCP-009) ... 69

4.3.11. SIMBIO-SYS VIHI Off by OBCP(SS-FCP-010) ... 72

4.3.12. SIMBIO-SYS VIHI Detector TEC On by OBCP (SS-FCP-011) ... 73

4.3.13. SIMBIO-SYS VIHI Start-Stop Science (SS-FCP-012)... 74

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4.3.15. SIMBIO-SYS Upload of Parameters (SS-FCP-014) ... 78

4.3.16. SIMBIO-SYS Set NECP-CRUISE or STD thermal control thresholds (SS-FCP-015) ... 80

4.3.17. SIMBIO-SYS HRIC Science Acq Short Integr (SS-FCP-100) ... 82

4.3.18. SIMBIO-SYS HRIC Science Acq Short Integr FPAN filter (SS-FCP-101) ... 84

4.3.19. SIMBIO-SYS HRIC Science Acq Short Integr BB Filters (SS-FCP-102) ... 86

4.3.20. SIMBIO-SYS HRIC Science Acq Short Integr all filters (SS-FCP-103) ... 88

4.3.21. SIMBIO-SYS HRIC Stop Science Acq (SS-FCP-110) ... 90

4.3.22. SIMBIO-SYS HRIC Channel Power ON (SS-FCP-120) ... 91

4.3.23. SIMBIO-SYS HRIC Channel Power OFF (SS-FCP-121) ... 92

4.3.24. SIMBIO-SYS HRIC Detector Power ON (SS-FCP-122) ... 93

4.3.25. SIMBIO-SYS HRIC Detector Power OFF (SS-FCP-123) ... 94

4.3.26. SIMBIO-SYS HRIC TEC Power On (SS-FCP-124) ... 95

4.3.27. SIMBIO-SYS HRIC TEC Power Off (SS-FCP-125) ... 96

4.3.28. SIMBIO-SYS HRIC Read Address (SS-FCP-126) ... 97

4.3.29. SIMBIO-SYS HRIC Write Address (SS-FCP-127) ... 98

4.3.30. SIMBIO-SYS HRIC Science Acq Short Integr Xwindow (SS-FCP-199) ... 99

4.3.31. SIMBIO-SYS HRIC Science Acq Long Integr ALL FREE (SS-FCP-200) ... 101

4.3.32. SIMBIO-SYS HRIC Science Acq Long Integr FPAN filter (SS-FCP-201) ... 103

4.3.33. SIMBIO-SYS HRIC Science Acq Long Integr BB filters (SS-FCP-202) ... 105

4.3.34. SIMBIO-SYS HRIC Science Acq Long Integr all filters (SS-FCP-203) ... 107

4.3.35. SIMBIO-SYS HRIC Science Acq Long Integr Xwindow (SS-FCP-299) ... 109

4.3.36. SIMBIO-SYS STC Science SURF FREE (SS-FCP-300) ... 111

4.3.37. SIMBIO-SYS STC Science SURF SINGLE PANH (SS-FCP-301) ... 114

4.3.38. SIMBIO-SYS STC Science SURF SINGLE PANL (SS-FCP-302) ... 116

4.3.39. SIMBIO-SYS STC Science SURF SINGLE 750 (SS-FCP-303) ... 118

4.3.43. SIMBIO-SYS STC Science SURF NOMINAL GM (SS-FCP-307) ... 126

4.3.44. SIMBIO-SYS STC Science SURF NOMINAL CM (SS-FCP-308) ... 128

4.3.45. SIMBIO-SYS STC Science STAR FREE (SS-FCP-310) ... 130

4.3.46. SIMBIO-SYS STC Science STAR FREE (SS-FCP-311) ... 133

4.3.47. SIMBIO-SYS STC Science STAR SINGLE PANL (SS-FCP-312) ... 135

4.3.48. SIMBIO-SYS STC Science STAR SINGLE 750 (SS-FCP-313)... 137

4.3.52. SIMBIO-SYS STC Science STAR GM (SS-FCP-317) ... 145

4.3.53. SIMBIO-SYS STC Science STAR CM (SS-FCP-318) ... 147

4.3.54. SIMBIO-SYS STC Out Filters SURF X (SS-FCP-320) ... 149

4.3.55. SIMBIO-SYS STC Out Filters SURF BAND CENTRAL (SS-FCP-321) ... 151

4.3.56. SIMBIO-SYS STC Out Filters SURF BAND LEFT (SS-FCP-322) ... 153

4.3.57. SIMBIO-SYS STC Out Filters SURF BAND RIGHT (SS-FCP-323) ... 155

4.3.58. SIMBIO-SYS STC Out Filters SURF BAND RIGHT (SS-FCP-324) ... 157

4.3.59. SIMBIO-SYS STC Out Filters SURF HALF LOW (SS-FCP-325) ... 159

4.3.60. SIMBIO-SYS STC Out Filters STAR X (SS-FCP-330) ... 161

4.3.61. SIMBIO-SYS STC Out Filters STAR BAND CENTRAL (SS-FCP-331) ... 163

4.3.62. SIMBIO-SYS STC Out Filters STAR BAND LEFT (SS-FCP-332) ... 165

4.3.63. SIMBIO-SYS STC Out Filters STAR BAND RIGHT (SS-FCP-333) ... 167

4.3.64. SIMBIO-SYS STC Out Filters STAR HALF HIGH (SS-FCP-334)... 169

4.3.65. SIMBIO-SYS STC Out Filters STAR HALF HIGH (SS-FCP-335)... 171

4.3.66. SIMBIO-SYS STC COMBINATIONS STAR FULL FOV (SS-FCP-350) ... 173

4.3.67. SIMBIO-SYS STC Chan Power On (SS-FCP-360) ... 175

4.3.68. SIMBIO-SYS STC Chan Power Off (SS-FCP-361) ... 176

4.3.69. SIMBIO-SYS STC Detector Power ON (SS-FCP-362) ... 177

4.3.70. SIMBIO-SYS STC Detector Power OFF (SS-FCP-363) ... 178

4.3.71. SIMBIO-SYS STC TEC Power ON (SS-FCP-364) ... 179

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4.3.73. SIMBIO-SYS STC Read Address (SS-FCP-366) ... 181

4.3.74. SIMBIO-SYS STC Write Address (SS-FCP-367) ... 182

4.3.75. SIMBIO-SYS STC STOP SCIENCE (SS-FCP-368) ... 183

4.3.76. SIMBIO-SYS VIHI Thermal Control On (SS-FCP-500)... 184

4.3.77. SIMBIO-SYS VIHI Thermal Control Off (SS-FCP-501) ... 185

4.3.78. SIMBIO-SYS VIHI Detector On (SS-FCP-502) ... 186

4.3.79. SIMBIO-SYS VIHI Detector Off (SS-FCP-503) ... 187

4.3.80. SIMBIO-SYS VIHI Detector On and TEC On (SS-FCP-504) ... 188

4.3.81. SIMBIO-SYS VIHI Detector Off and TEC Off (SS-FCP-505) ... 189

4.3.82. SIMBIO-SYS VIHI Read Address (SS-FCP-506) ... 190

4.3.83. SIMBIO-SYS VIHI Write Address (SS-FCP-507) ... 191

4.3.84. SIMBIO-SYS VIHI Manual dark acquisition (SS-FCP-508) ... 192

4.3.85. SIMBIO-SYS VIHI Science Mode Variable IT (SS-FCP-512) ... 194

4.3.86. SIMBIO-SYS VIHI Science Fixed IT 137us (SS-FCP-513) ... 196

4.3.87. SIMBIO-SYS VIHI Stop Science (SS-FCP-514) ... 198

4.3.88. SIMBIO-SYS Power-on VIHI Channel (SS-FCP-515) ... 199

4.3.89. SIMBIO-SYS Power-off VIHI Channel (SS-FCP-516) ... 200

4.4. TST ... 201

4.4.1. Summary ... 201

4.4.2. SIMBIO-SYS ME first power on (SS-TST-001) ... 204

4.4.3. SIMBIO-SYS HRIC functional tests (SS-TST-010) ... 206

4.4.4. SIMBIO-SYS HRIC functional test on ME Redundant (SS-TST-011) ... 210

4.4.5. SIMBIO-SYS STC functional tests (SS-TST-020) ... 212

4.4.6. SIMBIO-SYS STC functional test on ME Redundant (SS-TST-021) ... 217

4.4.7. SIMBIO-SYS VIHI calibration test (SS-TST-031) ... 219

4.4.8. SIMBIO-SYS VIHI dark and binning test (SS-TST-032) ... 226

4.4.9. SIMBIO-SYS VIHI functional test on ME Redundant (SS-TST-033) ... 235

4.4.10. SIMBIO-SYS VIHI functional test on ME Main (SS-TST-037) ... 237

5. Conclusions ... 240

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1. Document Change record

Issue Revision Date Affected Pages Change description

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2. Introduction

2.1. Scope

The aim of this document is to describe all the Flight Operation Procedures (FOPs) implemented for

the Spectrometers and Imagers for MPO BepiColombo Integrated Observatory SYStem

(SIMBIO-SYS) and to be used during all the operational phases of the instrument.

Differently from the date in the header, present Technical Note refers to activities performed

between 2017 and 2018 before the launch of the BepiColombo mission.

2.2. Reference Documents

[RD.1]

BC-ASD-SP-00176_1_4 SIMBIO URD

[RD.2]

BC-ASD-TN-00407_5_Standard_S12S19 issue 5

[RD.3]

BC-SIM-GAF-IC-002

[RD.4]

BC-SIM-ORS-MA-002 April 6 2016

[RD.5]

BC-ASD-SP- 00176

[RD.6]

BC-ASD-MA-00024 TCS Subsystem UM issue 6.1

2.3. Acronyms

ASW

Application SoftWare

BSW

Boot SoftWare

CPCU

Control Processing Command Unit

CRP

CRitical Procedures

CU

Compression Unit

ENG

ENGineering procedure

FCP

Flight Control Procedure

FOP

Flight Operation Procedures

FPGA

Field Programmable Gate Array

HRIC

High spatial Resolution Imaging Channel

ME

Main Electronics

OBCP

On-Board Control Procedure

OBT

On-Board Time

PE

Proximity Electronics

PI

Principal Investigator

SIMBIO-SYS

Spectrometers and Imagers for MPO BepiColombo Integrated

Observatory SYStem

SPW

SpiceWire

SSMM

Solid State Mass Memory

STC

STereo imaging Channel

S/C

SpaceCraft

TC

TeleCommand

TM

TeleMetry

TST

TeST procedures

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2.4. Document Organization

This document is organized in sections whose topics are listed as follows:

• Section 3 – FOPs definition, with a brief description of the type and application context of all

SIMBIO-SYS FOP.

• Section 4 – all SIMBIO-SYS procedures (i.e., CRP, ENG, FCP and TST) description.

• Section 5 – Conclusions, with a brief discussion of possible updates of the SIMBIO-SYS FOPs

database.

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3. SIMBIO-SYS FOP definition and description

During all operative phases the SIMBIO-SYS instrument will be commanded through proper

sequence of commands which are sent to the MPO Space-Craft (S/C) using FOP. These can be

grouped into 4 distinct types depending on the application context:

• CRitical Procedure (CRP): to be used for safety command the instrument

• ENGineering procedure (ENG): to be used for SW update, memory check and HK

management

• Flight Control Procedure (FCP): to be used for the scientific usage of the channel

• TeST procedure (TST): special procedure to be used for specific test during all the operative

phases

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4. SIMBIO FOP

4.1. CRP

4.1.1. Summary

CRitical Procedures (CRP)

ID

Name and description

SIMBIO-SYS status

Start

End

Duration [s]

SIMBIO-SYS

Emergency Switch

Off by OBCP

(SS-CRP-001)

SIMBIO-SYS Emergency Switch Off by OBCP

(SS-CRP-001)

To trigger execution of the SIMBIO-SYS Emergency OFF OBCP.

Any ME and all channels OFF. TBD

SIMBIO-SYS

Reset

Output Buffer

(SS-CRP-002)

SIMBIO-SYS Reset Output Buffer

(SS-CRP-002)

To reset the SIMBIO-SYS TM output buffer.

Any Unchanged TBD

SIMBIO-SYS

Run

Diagnostic Mode

(SS-CRP-003)

SIMBIO-SYS Run Diagnostic Mode

(SS-CRP-003)

Starts the ME Diagnostic Mode, then each of the three channel diagnostics can be started.

ME in ASW started mode Unchanged TBD SIMBIO-SYS

HRIC

Simulated Readout

(SS-CRP-004)

SIMBIO-SYS HRIC Simulated Readout

(SS-CRP-004)

To simulate HRIC detector science dataflow with a fixed pattern or an increasing counter. ME is ON, HRIC PE OFF Unchanged TBD SIMBIO-SYS

STC

Simulated Readout

(SS-CRP-005)

SIMBIO-SYS STC Simulated Readout

(SS-CRP-005)

To simulate STC detector science dataflow with a fixed pattern or an increasing counter.

ME is ON, STC PE OFF Unchanged TBD

SIMBIO-SYS

VIHI

Simulated Readout

(SS-CRP-006)

SIMBIO-SYS VIHI Simulated Readout

(SS-CRP-006)

To simulate VIHI detector science dataflow with a fixed pattern or an increasing counter.

ME is ON, VIHI PE OFF

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SIMBIO-SYS

Reaction

to TM Out of Limits

(SS-CRP-007)

SIMBIO-SYS Reaction to TM Out of Limits

(SS-CRP-007)

Lists the actions required in case some SIMBIO-SYS TM parameter goes Out-Of-Limit.

Any Unchanged unless the Emergency Switch-OFF is commanded TBD SIMBIO-SYS

Reaction

to TM non-nominal

Events

(SS-CRP-008)

SIMBIO-SYS Reaction to TM non-nominal Events

(SS-CRP-008)

Lists the actions required in case a non-nominal event is received from SIMBIO-SYS.

Any Unchanged TBD

SIMBIO-SYS

Manual

Switch On

(SS-CRP-009)

SIMBIO-SYS Manual Switch On

(SS-CRP-009)

To manually switch on SIMBIO-SYS on its Nominal or Redundant Interface.

SIMBIO-SYS OFF ME ON under ASW control, all channels OFF

TBD

SIMBIO-SYS

Manual

Switch Off

(SS-CRP-010)

SIMBIO-SYS Manual Switch Off

(SS-CRP-010)

To power OFF the SIMBIO-SYS ME. The Graceful Switch OFF TC precedes the LCL OFF TCs in order to avoid inadvertent abrupt power OFF of the Detectors and PEs.

Any All electronics are OFF, S12 and S19 for SIMBIO-SYS are disabled.

TBD

SIMBIO-SYS

Enable

or Disable Science

TM (SS-CRP-011)

SIMBIO-SYS Enable or Disable Science TM

(SS-CRP-011)

To enable or disable the forwarding of SIMBIO-SYS Science Telemetry from the SIMBIO-SYS Compression Unit to the S/C SSMM.

ME ON, forwarding of Science telemetry enabled or disabled ME ON, forwarding of Science telemetry modified as commanded TBD Enabling

or

Disabling of S19

recovery

(SS-CRP-012)

Enabling or Disabling of S19 recovery

(SS-CRP-012)

To enable or disable the Service 19 recovery action(s) associated to SIMBIO-SYS.

Any Status of SIMBIO-SYS S19 recovery modified

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4.1.2. SIMBIO-SYS Emergency Switch Off by OBCP (SS-CRP-001)

4.1.2.1. Objectives

The aim of this FOP is to trigger execution of the SIMBIO-SYS Emergency OFF On-Board Control

Procedure (OBCP) named KSS04008EMOF in [RD.1]. This OBCP shall normally be triggered by FDIR

via S12/S19 and not by this procedure.

4.1.2.2. Summary of Constraints

None

4.1.2.3. Spacecraft Configuration

Start of Procedure End of Procedure

Any SIMBIO ME and channels OFF, SIMBIO SpW links off, SIMBIO LCLs open.

4.1.2.4. Reference File(s)

4.1.2.4.1. Input Command Sequences

None

4.1.2.4.2. Output Command Sequences

ASSC001A

4.1.2.5. Input parameters

None

4.1.2.6. TC sequence

Relative Time Sequence TC name TC par name TC par description TC par value

00:00:00 ASSC001A ZCD00C02 PCG0C011 Number of Monitoring 2 PCG0C012 User Monitoring ID 82 PCG0C012 User Monitoring ID 83 00:00:02 ZSSK4008 PKK00093 Shutdown DNEL

4.1.2.7. Configuration Control Information

Date

FOP Issue

Version Description

21/02/2017 1 1 Created

24/02/2017 2 2 Title changed

02/05/2017 0.2 2.01 Title modified, added comments on OBCP Start / Stop event packets from DMS

05/12/2017 1 3 Updated AND references

06/08/2018 3 4 CR205 - Management of DMS monitoring services 82 and 83 on SIMBIO 3.5 V and 5 V supply that were added after OBCP development

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4.1.3. SIMBIO-SYS Reset Output Buffer (SS-CRP-002)

4.1.3.1. Objectives

The aim of this FOP is to reset the SIMBIO-SYS TeleMetry (TM) Output Buffer.

4.1.3.2. Summary of Constraints

Some TM shall be lost.

4.1.3.3. Spacecraft Configuration

Start of Procedure End of Procedure

Any Unchanged

4.1.3.4. Reference File(s)

4.1.3.4.1. Input Command Sequences

None

4.1.3.4.2. Output Command Sequences

ASSC002A

4.1.3.1. Input parameters

None

4.1.3.2. TC sequence

Relative Time Sequence TC name TC par name TC par description TC par value

00:00:00 ASSC002A ZSS02128 - - -

4.1.3.3. Configuration Control Information

Date

FOP Issue

Version

Description

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4.1.4. SIMBIO-SYS Run Diagnostic Mode (SS-CRP-003)

4.1.4.1. Objectives

The aim of this FOP is to starts the Main Electronic (ME) Diagnostic Mode, then each of the three

channel diagnostics can be started. The default duration for each channel simulation is set here to

30 s but can be easily changed modifying the release time of the "Stop Diagnostic Mode"

TeleCommand (TC).

The diagnostic telemetry is dummy science actually generated by the ME. Finally, the diagnostic of

ME is turned off.

Like in Science, HRIC and STC can be used in mosaic mode, while VIHI channels has only "continuous"

science mode.

If MOSAIC MODE is selected (by setting appropriately the parameters in the TC to start the HRIC or

STC diagnostic) the required number of Science simulation with the related repetition time will be

created by the ME.

As soon as the required images are acquired, the ME will automatically stop the simulation and

switch to HRIC/STC idle diagnostic mode.

So, if MOSAIC MODE is selected, the "Stop Diagnostic Mode" TC for that channel should NOT be

uplinked.

4.1.4.2. Summary of Constraints

The ME must be in Application SoftWare (ASW) started mode before starting the procedure,

otherwise the TC to enter diagnostic mode shall be discarded.

4.1.4.3. Spacecraft Configuration

Start of Procedure

End of Procedure

ME in ASW started mode Unchanged

4.1.4.4. Reference File(s)

4.1.4.4.1. Input Command Sequences

None

4.1.4.4.2. Output Command Sequences

ASSC003A

ASSC003B

ASSC003C

ASSC003D

ASSC003E

4.1.4.1. Input parameters

None

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4.1.4.2. TC sequence

Relative time Sequence TC name TC par name TC par description

TC par value

00:00:00 ASSC003A ZSS17005 - - -

00:00:00

ASSC003B ZSS17120

PSS01601 repetition time HRIC 1115

PSS01602 NbrAcq 65535

PSS01101 start row pixel w1 906 PSS00501 start strip pixel w1 3 PSS01102 end row pixel w1 1289 PSS00502 end strip pixel w1 26 PSS00205 Compression box dim 3 PSS00601 Compression ratio w1 0 PSS08008 Priority 0 00:00:30 ZSS17121 - - - 00:00:00 ASSC003C ZSS17220 PSS01629 repetition time STC 1115 PSS01602 NbrAcq 65535

PSS01101 start row pixel w1 906 PSS00501 start strip pixel w1 3 PSS01102 end row pixel w1 1289 PSS00502 end strip pixel w1 26 PSS00205 Compression box dim 3 PSS00601 Compression ratio w1 0

PSS08008 Priority 0

00:00:30 ZSS17221 - - -

00:00:00

ASSC003D ZSS17320

PSS01631 VIHI Repetition time 40 PSS01632 VIHI starting row pixel 6 PSS01633 VIHI Starting colum pixel 6 PSS01634 VIHI End row pixel 197 PSS01635 VIHI End colum pixel 133 PSS00205 Compression box dim 1 PSS00601 Compression ratio w1 0

PSS08008 Priority 0

00:00:30 ZSS17321 - - -

00:00:00 ASSC003E ZSS17006 - - -

4.1.4.3. Configuration Control Information

Date

FOP Issue

Version

Description

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4.1.5. SIMBIO-SYS HRIC Simulated Readout (SS-CRP-004)

4.1.5.1. Objectives

The aim of this FOP is to simulate HRIC detector science dataflow with a fixed pattern or an

increasing counter. The type of reading is selected by the sequence formal parameter. The

"simulated science" is commanded using the normal science TC but specifying parameter "LS Bit 1

PE mode" = 1.

The ASW sends the Start Science TC to the Proximity Electronics (PE) with flag "test Mode"; the PE

does not program the detector but simulates the detector by generating fixed/ counter pattern. The

ME handles the incoming "simulated science" as "nominal science” and applies the editing/

compression as specified by the user in the Start Science TC.

The "Simulated science acquisition" allows to test the science generation and traffic towards S/C

limiting the items under test to ME CPCU + ME CU + PE without the detector (that is being

simulated).

4.1.5.2. Summary of Constraints

None

4.1.5.3. Spacecraft Configuration

Start of Procedure

End of Procedure

ME is ON, HRIC PE (channel) Off Unchanged

4.1.5.4. Reference File(s)

4.1.5.4.1. Input Command Sequences

None

4.1.5.4.2. Output Command Sequences

ASSC004A

4.1.5.5. Input parameters

Sequence TC par name TC par description TC par reference Default par value

ASSC004A PSS01606 Value to be write XC004A01 0

4.1.5.6. TC sequence

Relative time Sequence TC name TC par name TC par description TC par value

00:00:00

ASSC004A

ZSS17101 PSS08006 On/Off On

Auto ZSS17107 PSS01605 PE HRIC Addr 0

PSS01606 Value to be write XC004A01

00:00:05 ZSS17104 - - -

00:00:05 ZSS17106 PSS01605 PE HRIC Addr TEST_PATTERN_ADD

Auto ZSS17102

PSS01501 integration time 4 PSS01601 repetition time HRIC 223

PSS01602 NbrAcq 65535

PSS00202 binning factor w2 0 PSS00201 binning factor w1 0

(17)

PSS00301 number of windows 1 PSS00204 binning factor w4 0 PSS00203 binning factor w3 0 PSS01101 start row pixel w1 920 PSS00501 start strip pixel w1 0 PSS01102 end row pixel w1 1559 PSS00502 end strip pixel w1 31 PSS01103 start row pixel w2 0 PSS00503 start strip pixel w2 10 PSS01104 end row pixel w2 0 PSS00504 end strip pixel w2 1 PSS01105 start row pixel w3 0 PSS00505 start strip pixel w3 0 PSS01106 end row pixel w3 0 PSS00506 end strip pixel w3 1 PSS01107 start row pixel w4 0 PSS00507 start strip pixel w4 0 PSS01108 end row pixel w4 0 PSS00508 end strip pixel w4 1 PSS00205 Compression box dim 3 PSS00601 Compression ratio w1 32 PSS00602 Compression ratio w2 0 PSS00603 Compression ratio w3 0 PSS00604 Compression ratio w4 0 PSS00101 LS bit1 PE mode 1 PSS08008 Priority 0 Auto ZSS17109 - - -

Auto ZSS17101 PSS08006 On/Off Off

4.1.5.7. Configuration Control Information

Date

FOP Issue

Version

Description

(18)

4.1.6. SIMBIO-SYS STC Simulated Readout (SS-CRP-005)

4.1.6.1. Objectives

The aim of this FOP is to simulate STC detector science dataflow with a fixed pattern or an increasing

counter. The type of reading is selected by the sequence formal parameter. The "simulated science"

is commanded using the normal science TC but specifying parameter "LS Bit 1 PE mode" = 1.

The ASW sends the Start Science TC to the PE with flag "test Mode"; the PE does not program the

detector but simulates the detector by generating fixed/ counter pattern. The ME handles the

incoming "simulated science" as "nominal science” and applies the editing/ compression as

specified by the user in the Start Science TC.

The "Simulated science acquisition" allows to test the science generation and traffic towards S/C

limiting the items under test to ME CPCU + ME CU + PE without the detector (that is being

simulated).

4.1.6.2. Summary of Constraints

None

4.1.6.3. Spacecraft Configuration

Start of Procedure

End of Procedure

ME is ON, STC PE (channel) Off Unchanged

4.1.6.4. Reference File(s)

4.1.6.4.1. Input Command Sequences

None

4.1.6.4.2. Output Command Sequences

ASSC005A

4.1.6.5. Input parameters

Sequence TC par name TC par description TC par reference Default par value

4.1.6.6. TC sequence

Relative time

Sequence TC name TC par name

TC par description

TC par value

00:00:00

ASSC005A

Auto ZSS17207 PSS01607 PE STC Addr 0

00:00:05 ZSS17204 00:00:05 ZSS17206 PSS01607 PE STC Addr TEST_PATTERN_ADD Auto ZSS17202 PSS01501 integration time 4 PSS01629 repetition time STC 1440 PSS01602 NbrAcq 65535 PSS00301 number of windows 2 PSS01101 start row pixel w1 438 PSS00501 start strip pixel w1 10

(19)

PSS01102 end row pixel w1 821 PSS00502 end strip pixel w1 22 PSS01103 start row pixel w2 1227 PSS00503 start strip pixel w2 10 PSS01104 end row pixel w2 1610 PSS00504 end strip pixel w2 22 PSS01105 start row pixel w3 0 PSS00505 start strip pixel w3 0 PSS01106 end row pixel w3 0 PSS00506 end strip pixel w3 1 PSS01107 start row pixel w4 0 PSS00507 start strip pixel w4 0 PSS01108 end row pixel w4 0 PSS00508 end strip pixel w4 1 PSS01109 start row pixel w5 0 PSS00509 start strip pixel w5 0 PSS01110 end row pixel w5 0 PSS00510 end strip pixel w5 1 PSS01111 start row pixel w6 0 PSS00511 start strip pixel w6 0 PSS01112 end row pixel w6 0 PSS00512 end strip pixel w6 1 PSS00205 Compression box dim 1 PSS00601 Compression ratio w1 32 PSS00602 Compression ratio w2 32 PSS00603 Compression ratio w3 0 PSS00604 Compression ratio w4 0 PSS00605 Compression ratio w5 0 PSS00606 Compression ratio w6 0 PSS00101 LS bit1 PE mode 1 PSS08008 Priority 0 Auto ZSS17209

4.1.6.7. Configuration Control Information

Date

FOP Issue

Version

Description

(20)

4.1.7. SIMBIO-SYS VIHI Simulated Readout (SS-CRP-006)

4.1.7.1. Objectives

The aim of this FOP is to simulate VIHI detector science dataflow with a fixed pattern or an increasing

counter. The type of reading is selected by the sequence formal parameter. The "simulated science"

is commanded using the normal science TC but specifying parameter "LS Bit 1 PE mode" = 1.

The Application SW sends the Start Science TC to the PE with flag "test Mode"; the PE does not

program the detector but simulates the detector by generating fixed/ counter pattern. The ME

handles the incoming "simulated science" as "nominal science” and applies the editing/

compression as specified by the user in the Start Science TC.

The "Simulated science acquisition" allows to test the science generation and traffic towards S/C

limiting the items under test to ME CPCU + ME CU + PE without the detector (that is being

simulated).

4.1.7.2. Summary of Constraints

None

4.1.7.3. Spacecraft Configuration

Start of Procedure

End of Procedure

ME is ON, VIHI PE (channel) Off Unchanged

4.1.7.4. Reference File(s)

4.1.7.4.1. Input Command Sequences

None

4.1.7.4.2. Output Command Sequences

ASSC006A

4.1.7.5. Input parameters

Sequence TC par name TC par description TC par reference Default par value

4.1.7.6. TC sequence

Relative time Sequence TC name TC par name TC par description

TC par value

00:00:00

ASSC006A

Auto ZSS17307 PSS01637 PE VIHI Addr 0

00:00:05 ZSS17304

00:00:05 ZSS17306 PSS01637 PE VIHI Addr TEST PATTERN ADD

Auto ZSS17302

PSS01630 VIHI integration time 117 PSS01631 VIHI Repetition time 8 PSS01632 VIHI starting row pixel 4 PSS01633 VIHI Starting column pixel 4 PSS01634 VIHI End row pixel 259 PSS01635 VIHI End column pixel 259

(21)

PSS00104 Dark subtraction status 0 PSS00105 Dark_Acquisition 0 PSS00207 Spatial binning VIHI 1 PSS00208 Binning sequence of frame 1 PSS00209 Spectral editing 2 PSS03207 VIHI Spare 32 0 PSS00205 Compression box dim 1 PSS00601 Compression ratio w1 1

PSS00106 Dark Macro 0

PSS00101 LS bit1 PE mode 1

PSS08008 Priority 0

Auto ZSS17309

4.1.7.7. Configuration Control Information

Date

FOP Issue

Version

Description

(22)

4.1.8. SIMBIO-SYS Reaction to TM Out of Limits (SS-CRP-007)

4.1.8.1. Objectives

The aim of this FOP is to lists the actions required in case some SIMBIO-SYS TM parameter goes

Out-Of-Limit.

4.1.8.2. Summary of Constraints

None

4.1.8.3. Spacecraft Configuration

Start of Procedure End of Procedure

Any Unchanged unless the Emergency Switch-Off is commanded

4.1.8.4. Reference File(s)

4.1.8.4.1. Input Command Sequences

None

4.1.8.4.2. Output Command Sequences

ASSC007A

4.1.8.5. Input parameters

None

4.1.8.6. TC sequence

None

4.1.8.7. Configuration Control Information

Date

FOP Issue

Version

Description

(23)

4.1.9. SIMBIO-SYS Reaction to TM non-nominal Events (SS-CRP-008)

4.1.9.1. Objectives

The aim of this FOP is to lists the actions required in case a non-nominal event is received from

SIMBIO-SYS.

4.1.9.2. Summary of Constraints

None

4.1.9.3. Spacecraft Configuration

Start of Procedure End of Procedure

Any Unchanged

4.1.9.4. Reference File(s)

4.1.9.4.1. Input Command Sequences

None

4.1.9.4.2. Output Command Sequences

ASSC008A

4.1.9.5. Input parameters

None

4.1.9.6. TC sequence

None

4.1.9.7. Configuration Control Information

Date

FOP Issue

Version

Description

(24)

4.1.10. SIMBIO-SYS Manual Switch On (SS-CRP-009)

4.1.10.1. Objectives

The aim of this FOP is to manually switch on SIMBIO-SYS on its Nominal or Redundant Interface.

The procedure includes steps to:

• time synchronize the Boot SoftWare (BSW)

• verify BSW version

• load ASW FLIGHT version

• time synchronize ASW

• verify ASW version

THE PROCEDURE IS SUPPOSED TO RUN IN A NON NOMINAL SITUATION, THEREFORE THE FINAL

ACTIVATION OF ANY MONITORING AND EVENT ACTION ENTRY IS OPTIONAL AS PER PI INPUTS.

The sequence of power up and related TM time-stamp is the following (email from Vincent Carlier,

23 March 2016):

At the power-on of SIMBIO-SYS, the FPGA companion chip of the RTC takes around 4 seconds to

power-up with a timeout of 5 seconds. During this situation the SpaceWire (SpW) link is not activated

by SIMBIO-SYS. S/C is in Auto Start mode and waits SIMBIO-SYS to start the SpW link. Thus nothing

happens from SYS at this stage, any telecommand can simply not be received by

SIMBIO-SYS.

When the FPGA power-up is completed (or the timeout expires), the SpW link is activated. The two

TM (5,1) “SIMB BSW report” and “SIMB Mode Change” are sent immediately. These two TMs are

always unsynchronized. The OBT field is the init value (1273536000) + ~80ms.

From now another timeout of 5 seconds is started. SIMBIO-SYS waits the Time Update Service 9

Telecommand TC(9,129) from S/C.

If the TC Time Updated is received before the end of the timeout, the OBT is updated at the next

Time Code and the first HK report TM(3,25) is sent to S/C synchronized before the end of the timeout.

If the timeout expires SIMBIO-SYS sends the first HK report TM(3,25) unsynchronized (OBT value =

1273536000 + ~5s).

4.1.10.2. Summary of Constraints

The S/C Solid State Mass Memory (SSMM) in OPERA mode, SIMBIO Temperature within given limits.

4.1.10.3. Spacecraft Configuration

Start of Procedure End of Procedure

SIMBIO-SYS OFF SIMBIO-SYS ME ON under ASW control, all channels OFF

4.1.10.4. Reference File(s)

4.1.10.4.1. Input Command Sequences

None

4.1.10.4.2. Output Command Sequences

ASSC009A

ASSC009B

(25)

ASSC009C

ASSC009D

4.1.10.5. Input parameters

None

4.1.10.6. TC sequence

Relative time Sequence TC name TC par name TC par description

TC par value

00:00:00

ASSC009A

ZSM00297

PSM00302 SpW I/F E/D Enabled

PSM00303 SpW I/S Nominal

PSM00304 P/L ID SYMBIO-SYS

Auto ZPW01065

00:00:06 ZCD00982 PCD09821 User Process ID 50 PCD09822 Time Update Period sec 0 00:00:00

ASSC009B

ZSM00297

PSM00302 SpW I/F E/D Enabled

PSM00303 SpW I/S Redundant

Auto ZPW01149

00:00:06 ZCD00982 PCD09821 User Process ID 50 PCD09822 Time Update Period sec 0 00:00:00

ASSC009C

ZSS00605

PSS06060 Memory ID ONCHIP_RAM PSS06065 Start Address A0008318 PSS06067 Length of Dump Block 3

Auto ZSS17003

PSS03205 address of image in EEPR 10040000 PSS03202 Length of Image 120872 PSS03206 Destination addr in RAM 1074790400

00:00:05 ZSS17002

PSS03201 address of image in RAM 40100000 PSS03202 Length of Image 120872

PSS03203 CRC value 55350

Auto ZSS17001 PSS03201 address of image in RAM 40100000 00:00:03 ZCD00982 PCD09821 User Process ID 50

PCD09822 Time Update Period sec 0

Auto ZSS00605

PSS06060 Memory ID ONCHIP_RAM PSS06065 Start Address A0008318 PSS06067 Length of Dump Block 3

Auto ZSS00605

PSS06060 Memory ID RAM

PSS06065 Start Address 40114140 PSS06067 Length of Dump Block 3

Auto ZSS00605

PSS06060 Memory ID RAM

PSS06065 Start Address 40000F34 PSS06067 Length of Dump Block 3

00:00:00 ASSC009D ZCD00C01 PCG0C011 Number of Monitoring 2 PCG0C012 User Monitoring ID 82 PCG0C012 User Monitoring ID 83 Auto ZCD01304 PCG13041 Number of Actions 1 PCG13042 PID emitter of Event 10 PCG13012 Event Identifier 13121

Auto ZCF00C01

PCG0C011 Number of Monitoring 4 PCG0C012 User Monitoring ID 205 PCG0C012 User Monitoring ID 206

(26)

PCG0C012 User Monitoring ID 207 PCG0C012 User Monitoring ID 208

Auto ZCF01304

PCG13041 Number of Actions 1 PCG13042 PID emitter of Event 12 PCG13012 Event Identifier 21611

4.1.10.7. Configuration Control Information

Date

FOP

Issue

Version Description

20/04/2016 0.1 1 Created

23/08/2017 2 Reporter has auto-corrected SS-CRP-009 procedure. 05/12/2017 1 3 Database realignment

06/08/2018 3 4 CR205 - Management of DMS monitoring 82 and 83 on SIMBIO 3.5 V and 5 V supply that were added after OBCP development

(27)

4.1.11. SIMBIO-SYS Manual Switch Off (SS-CRP-010)

4.1.11.1. Objectives

The aim of this FOP is to power OFF the SIMBIO-SYS ME. The Graceful Switch Off TC precedes the

LCL OFF TCs in order to avoid inadvertent abrupt power OFF of the Detectors and PEs.

4.1.11.2. Summary of Constraints

None

4.1.11.3. Spacecraft Configuration

Start of Procedure End of Procedure

Any All SIMBIO-SYS electronics are OFF, S12 and S19 for SIMBIO are disabled, both SIMBIO Spacewire Interfaces are disabled.

4.1.11.4. Reference File(s)

4.1.11.4.1. Input Command Sequences

None

4.1.11.4.2. Output Command Sequences

ASSC010A

ASSC010B

4.1.11.5. Input parameters

None

4.1.11.6. TC sequence

Relative time Sequence TC name TC par name TC par description TC par value

00:00:00 ASSC010A ZSS17007 00:00:00 ASSC010B ZCF00C02 PCG0C011 Number of Monitoring 4 PCG0C012 User Monitoring ID 205 PCG0C012 User Monitoring ID 206 PCG0C012 User Monitoring ID 207 PCG0C012 User Monitoring ID 208 Auto ZCF01305 PCG13041 Number of Actions 1 PCG13042 PID emitter of Event 12 PCG13012 Event Identifier 21611 Auto ZCD00C02 PCG0C011 Number of Monitoring 2 PCG0C012 User Monitoring ID 82 PCG0C012 User Monitoring ID 83 Auto ZCD01305 PCG13041 Number of Actions 1 PCG13042 PID emitter of Event 10 PCG13012 Event Identifier 13121

00:00:01 ZSM00297

PSM00302 SpW I/F E/D Disabled

PSM00303 SpW I/S Nominal

(28)

PSM00303 SpW I/S Redundant

Auto ZPW01064

00:00:01 ZPW01148

4.1.11.7. Configuration Control Information

Date

FOP

Issue

Version Description

29/09/2016 0.2 1 Created

23/08/2017 2 Reporter has auto-corrected SS-CRP-010 procedure. 05/12/2017 1 3 Database realignment

06/08/2018 3 4 CR205 - Management of DMS monitoring 82 and 83 on SIMBIO 3.5 V and 5 V supply that were added after OBCP development

(29)

4.1.12. SIMBIO-SYS Enable or Disable Science TM (SS-CRP-011)

4.1.12.1. Objectives

The aim of this FOP is to enable or disable the forwarding of SIMBIO-SYS Science TM from the

SIMBIO-SYS CU to the SSMM.

Note: at any SIMBIO-SYS channel power-on, science telemetry is enabled by default.

4.1.12.2. Summary of Constraints

None. Note that all active SIMBIO-SYS channels shall be affected.

4.1.12.3. Spacecraft Configuration

Start of Procedure

End of Procedure

SIMBIO-SYS forwarding of Science telemetry enabled or disabled

SIMBIO-SYS forwarding of Science telemetry modified as commanded

4.1.12.4. Reference File(s)

4.1.12.4.1. Input Command Sequences

None

4.1.12.4.2. Output Command Sequences

ASSC011A

ASSC011B

4.1.12.5. Input parameters

None

4.1.12.6. TC sequence

Relative time Sequence TC name TC par name TC par description TC par value

00:00:00 ASSC011A ZSS02101 00:00:00 ASSC011B ZSS02102

4.1.12.7. Configuration Control Information

Date

FOP

Issue

Version Description

(30)

4.1.13. Enabling or Disabling of S19 recovery (SS-CRP-012)

4.1.13.1. Objectives

The aim of this FOP is to enable or disable the Service 19 recovery action(s) associated to

SIMBIO-SYS.

4.1.13.2. Summary of Constraints

Disabling the recovery actions can endanger the instrument: disabling only to be performed after

agreement with SIMBIO-SYS Principal Investigator (PI). This procedure is consistent with [RD.2] and

shall have to be modified with the next release of the TN.

4.1.13.3. Spacecraft Configuration

Start of Procedure End of Procedure

Any Status of SIMBIO S19 recovery modified

4.1.13.4. Reference File(s)

4.1.13.4.1. Input Command Sequences

None

4.1.13.4.2. Output Command Sequences

ASSC012A

ASSC012B

4.1.13.5. Input parameters

None

4.1.13.6. TC sequence

Relative time Sequence TC name TC par name TC par description TC par value

00:00:00

ASSC012A ZCF01304

Auto ZCF01306 - - -

00:00:00

ASSC012B ZCF01305

Auto ZCF01306 - - -

4.1.13.7. Configuration Control Information

Date

FOP

Issue

Version Description

(31)

4.2. ENG

4.2.1. Summary

ENGineering procedures (ENG)

ID

Name and description

SIMBIO-SYS status

Start

End

Duration [s]

SIMBIO-SYS

SW

Maintenance

(SS-ENG-001)

SIMBIO-SYS SW Maintenance

(SS-ENG-001)

To perform OBSW maintenance on SIMBIO-SYS. Nominally, all sequences shall be uplinked using PDORs and MDORs.

SIMBIO-SYS OFF SIMBIO ME ON, new SW version running TBD SIMBIO-SYS

HRIC Read -

Write Address

(SS-ENG-002)

SIMBIO-SYS HRIC Read - Write Address

(SS-ENG-002)

To read or write the contents of a HRIC FPGA address.

ME is ON, HRIC is ON Unchanged TBD

SIMBIO-SYS

STC

Read - Write

Address

(SS-ENG-003)

SIMBIO-SYS STC Read - Write Address

(SS-ENG-003)

To read or write the contents of an STC FPGA address.

ME is ON, STC is ON Unchanged TBD

SIMBIO-SYS

VIHI

Read - Write

Address

(SS-ENG-004)

SIMBIO-SYS VIHI Read - Write Address

(SS-ENG-004)

To read or write the contents of a VIHI FPGA address.

ME is ON, VIHI is ON Unchanged TBD

SIMBIO-SYS

Enable -

Disable HKs

(SS-ENG-005)

SIMBIO-SYS Enable - Disable HKs

(SS-ENG-005)

To enable or disable the generation of a SIMBIO HK packet.

SIMBIO-SYS is ON Unchanged TBD

SIMBIO-SYS

HRIC TEC

SIMBIO-SYS HRIC TEC Cooling Test

(SS-ENG-007)

To test the functionality of the TEC for HRIC.

(32)

Cooling Test

(SS-ENG-007)

SIMBIO-SYS

STC

TEC Cooling

Test

(SS-ENG-008)

SIMBIO-SYS STC TEC Cooling Test

(SS-ENG-008)

To test the functionality of the TEC for STC.

ME is ON, STC is ON Unchanged TBD

SIMBIO-SYS

VIHI

TEC Cooling

Test

(SS-ENG-009)

SIMBIO-SYS VIHI TEC Cooling Test

(SS-ENG-009)

To test the functionality of the TEC for VIHI.

ME is ON, VIHI is ON Unchanged TBD

SIMBIO-SYS

Connection

Test and Max

Length TC

(SS-ENG-011)

SIMBIO-SYS Connection Test and Max Length TC

(SS-ENG-011)

To verify TC capability to SIMBIO by uplink of a service 17 connection test or a "dummy content" max length TC.

SIMBIO ON and under ASW control

Unchanged TBD SIMBIO-SYS

check SW

version and

ASW Flight vs

Lab version

(SS-ENG-012)

SIMBIO-SYS check SW version and ASW Flight vs Lab version

(SS-ENG-012)

To check the SW version of BSW and ASW, and to verify whether ASW has been loaded from the Flight or from the Laboratory EEPROM image.

(33)

4.2.2. SIMBIO-SYS SW Maintenance (SS-ENG-001)

4.2.2.1. Objectives

The aim of this FOP is to perform On-Board SoftWare (OBSW) maintenance on SIMBIO-SYS.

Nominally, all sequences shall be uplinked using Payload Direct Operation Request (PDOR) and

Memory Direct Operation Request (MDOR).

4.2.2.2. Summary of Constraints

Can be run as standalone starting from SIMBIO-SYS LCL OFF. The MDORs (and PDORs) to be uplinked

must have been received.

4.2.2.3. Spacecraft Configuration

Start of Procedure

End of Procedure

SIMBIO LCL OFF, both SpaceWire links disabled SIMBIO ME ON, new SW version running

4.2.2.4. Reference File(s)

4.2.2.4.1. Input Command Sequences

None

4.2.2.4.2. Output Command Sequences

ASSE001A

ASSE001B

ASSE001C

ASSE001D

ASSE001E

ASSE001F

ASSE001G

4.2.2.1. Input parameters

Sequence TC par name TC par description

TC par reference Default par value

ASSE001A

PKK00021 Nominal Redundant XE001A01 Nominal PKK00103 EEPROM_START_ADDRESS XE001A02

PKK00104 IMG_LENGTH XE001A03 PKK00105 RAM_START_ ADDRESS XE001A04 PKK00106 CRC_VALUE XE001A05 ASSE001B

PSS06060 Memory ID XE001B01 PSS06065 Start Address XE001B02 PSS06067 Length of Dump Block XE001B03 ASSE001D

PSS03201 address of image in RAM XE001D01 PSS03202 Length of Image XE001D02 PSS03203 CRC value XE001D03 ASSE001E

PSS03201 address of image in RAM XE001E01 PSS03202 Length of Image XE001E02 PSS03204 Destination address EEPR XE001E03

ASSE001F PKK00021 Nominal Redundant XE001F01 Nominal PKK00102 ASW Start XE001F02

(34)

PKK00103 EEPROM_START_ADDRESS XE001F03 PKK00104 IMG_LENGTH XE001F04 PKK00105 RAM_START_ ADDRESS XE001F05 PKK00106 CRC_VALUE XE001F06 PSS06060 Memory ID XE001F07 PSS06065 Start Address XE001F08 PSS06068 num of bytes to check XE001F09

ASSE001G

PKK00021 Nominal Redundant XE001G01 0 PKK00102 ASW Start XE001G02

PKK00103 EEPROM_START_ADDRESS XE001G03 PKK00104 IMG_LENGTH XE001G04 PKK00105 RAM_START_ ADDRESS XE001G05 PKK00106 CRC_VALUE XE001G06

4.2.2.2. TC sequence

Relative time Sequence TC name TC par name TC par description

TC par value

00:00:00 ASSC012A ZSSK4000

PKK00021 Nominal Redundant XE001A01 PKK00102 ASW Start No ASW Start PKK00103 EEPROM_START_ADDRESS XE001A02 PKK00104 IMG_LENGTH XE001A03 PKK00105 RAM_START_ ADDRESS XE001A04 PKK00106 CRC_VALUE XE001A05 00:00:00 ASSC012B ZSS00605

PSS06060 Memory ID XE001B01 PSS06065 Start Address XE001B02 PSS06067 Length of Dump Block XE001B03 00:00:00 ASSC012C ZSS01701

00:00:00 ASSC012D ZSS17002

PSS03201 address of image in RAM XE001D01 PSS03202 Length of Image XE001D02 PSS03203 CRC value XE001D03 00:00:00 ASSC012E ZSS17004

PSS03201 address of image in RAM XE001E01 PSS03202 Length of Image XE001E02 PSS03204 Destination address EEPR XE001E03 00:00:00

ASSC012F

ZSSK4001

Auto ZSSK4000

PKK00021 Nominal Redundant XE001F01 PKK00102 ASW Start XE001F02 PKK00103 EEPROM_START_ADDRESS XE001F03 PKK00104 IMG_LENGTH XE001F04 PKK00105 RAM_START_ ADDRESS XE001F05 PKK00106 CRC_VALUE XE001F06

Auto ZSS00609

PSS06060 Memory ID XE001F07 PSS06065 Start Address XE001F08 PSS06068 num of bytes to check XE001F09 00:00:00

ASSC012G

ZSSK4001

Auto ZSSK4000

PKK00021 Nominal Redundant XE001G01 PKK00102 ASW Start XE001G02 PKK00103 EEPROM_START_ADDRESS XE001G03 PKK00104 IMG_LENGTH XE001G04 PKK00105 RAM_START_ ADDRESS XE001G05 PKK00106 CRC_VALUE XE001G06

(35)

4.2.2.3. Configuration Control Information

Date

FOP

Issue

Version Description

29/09/2016 0.2 1 Created

23/08/2017 2 Reporter has auto-corrected SS-ENG-001 procedure 05/12/2017 1 3 Updated all references, FP introduced

(36)

4.2.3. SIMBIO-SYS HRIC Read - Write Address (SS-ENG-002)

4.2.3.1. Objectives

The aim of this FOP is to read or write the contents of a HRIC FPGA address. There is a limited

number of addresses available for this operation, see appendix to this procedure. The values that

can be written and the associated functionality are listed in [RD.3] Table 3.7.2.3-2 PE Addresses

contents.

4.2.3.2. Summary of Constraints

The "WRITE ADDRESS" command must be followed by a "CONFIRM" command (included in this

procedure).

4.2.3.3. Spacecraft Configuration

Start of Procedure End of Procedure

HRIC is ON HRIC is ON, some working parameter possibly modified

4.2.3.4. Reference File(s)

4.2.3.4.1. Input Command Sequences

None

4.2.3.4.2. Output Command Sequences

ASSE002A

ASSE002B

4.2.3.5. Input parameters

Sequence TC par name TC par description TC par reference Default par value

ASSE002A PSS01605 PE HRIC Addr XE002A01 ASSE002B PSS01605 PE HRIC Addr XE002B01 PSS01606 Value to be write XE002B02

4.2.3.6. TC sequence

Relative time Sequence TC name TC par name TC par description TC par value

00:00:00 ASSE002A ZSS17106 PSS01605 PE HRIC Addr XE002B01 00:00:00

ASSE002B ZSS17107

PSS01605 PE HRIC Addr XE002C01 PSS01606 Value to be write XE002C02

00:00:05 ZSS17104

4.2.3.7. Configuration Control Information

Date

FOP

Issue

Version Description

(37)

4.2.4. SIMBIO-SYS STC Read - Write Address (SS-ENG-003)

4.2.4.1. Objectives

The aim of this FOP is to read or write the contents of a STC FPGA address. There is a limited number

of addresses available for this operation, see appendix to this procedure. The values that can be

written and the associated functionality are listed in [RD.3] Table 3.7.2.3-2 PE Addresses contents.

4.2.4.2. Summary of Constraints

The "WRITE ADDRESS" command must be followed by a "CONFIRM" command (included in this

procedure).

4.2.4.3. Spacecraft Configuration

Start of Procedure End of Procedure

STC is ON STC is ON, some working parameter possibly modified

4.2.4.4. Reference File(s)

4.2.4.4.1. Input Command Sequences

None

4.2.4.4.2. Output Command Sequences

ASSE003A

ASSE003B

4.2.4.5. Input parameters

Sequence TC par name TC par description TC par reference Default par value

ASSE003A PSS01607 PE STC Addr XE003A01 ASSE003B PSS01607 PE STC Addr XE003B01 PSS01606 Value to be write XE003B02

4.2.4.6. TC sequence

Relative time Sequence TC name TC par name TC par description TC par value

00:00:00 ASSE003A ZSS17206 PSS01607 PE STC Addr XE003B01 00:00:00

ASSE003B ZSS17207

PSS01607 PE STC Addr XE003C01 PSS01606 Value to be write XE003C02

00:00:05 ZSS17204

4.2.4.7. Configuration Control Information

Date

FOP

Issue

Version Description

(38)

4.2.5. SIMBIO-SYS VIHI Read - Write Address (SS-ENG-004)

4.2.5.1. Objectives

The aim of this FOP is to read or write the contents of a VIHI FPGA address. There is a limited number

of addresses available for this operation, see appendix to this procedure. The values that can be

written and the associated functionality are listed in [RD.3] Table 3.7.2.3-4 PE Addresses contents.

4.2.5.2. Summary of Constraints

The "WRITE ADDRESS" command must be followed by a "CONFIRM" command (included in this

procedure).

4.2.5.3. Spacecraft Configuration

Start of Procedure End of Procedure

VIHI is ON VIHI is ON, some working parameter possibly modified

4.2.5.4. Reference File(s)

4.2.5.4.1. Input Command Sequences

None

4.2.5.4.2. Output Command Sequences

ASSE004A

ASSE004B

4.2.5.5. Input parameters

Sequence TC par name TC par description TC par reference Default par value

ASSE004A PSS01637 PE VIHI Addr XE004A01 ASSE004B PSS01637 PE VIHI Addr XE004B01 PSS01606 Value to be write XE004B02

4.2.5.6. TC sequence

Relative time Sequence TC name TC par name TC par description TC par value

00:00:00 ASSE004A ZSS17306 PSS01637 PE VIHI Addr XE004B01 00:00:00

ASSE004B ZSS17307

PSS01637 PE VIHI Addr XE004C01 PSS01606 Value to be write XE004C02

00:00:05 ZSS17304

4.2.5.7. Configuration Control Information

Date

FOP

Issue

Version Description

(39)

4.2.6. SIMBIO-SYS Enable - Disable HKs (SS-ENG-005)

4.2.6.1. Objectives

The aim of this FOP is to enable or disable the generation of a SIMBIO-SYS HK packet. The TM

generation should always be enabled except for special cases.

4.2.6.2. Summary of Constraints

None

4.2.6.3. Spacecraft Configuration

Start of Procedure End of Procedure

SIMBIO is ON SIMBIO is ON, HK generation modified

4.2.6.4. Reference File(s)

4.2.6.4.1. Input Command Sequences

None

4.2.6.4.2. Output Command Sequences

ASSE005A

ASSE005B

4.2.6.5. Input parameters

Sequence TC par name TC par description TC par reference Default par value

ASSE005A PSS08003 SID XE005A01

ASSE005B PSS08003 SID XE005B01

4.2.6.6. TC sequence

Relative time Sequence TC name TC par name TC par description TC par value

00:00:00 ASSE005A ZSS00305 PSS08003 SID XE004B01 00:00:00 ASSE005B ZSS00306 PSS08003 SID XE004C01

4.2.6.7. Configuration Control Information

Date

FOP

Issue

Version Description

(40)

4.2.7. SIMBIO-SYS HRIC TEC Cooling Test (SS-ENG-007)

4.2.7.1. Objectives

The aim of this FOP is to test the functionality of the ThermoElectric Cooler (TEC) for HRIC.

4.2.7.2. Summary of Constraints

SIMBIO-SYS ASW started, HRIC detector ON.

4.2.7.3. Spacecraft Configuration

Start of Procedure

End of Procedure

Some TEC configuration TEC configuration Modified

4.2.7.4. Reference File(s)

4.2.7.4.1. Input Command Sequences

None

4.2.7.4.2. Output Command Sequences

ASSE007A

ASSE007B

4.2.7.5. Input parameters

Sequence TC par name TC par description

TC par reference Default par value

ASSE007A PSS01603 STC HRIC Temp set point XE007A01 2811

4.2.7.6. TC sequence

Relative time Sequence TC name TC par name TC par description

TC par value

00:00:00 ASSE007A ZSS17103 PSS08006 On/Off 1

PSS01603 STC HRIC Temp set point XE007A01 00:00:00 ASSE007B ZSS17103 PSS08006 On/Off 0

PSS01603 STC HRIC Temp set point 2811

4.2.7.7. Configuration Control Information

Date

FOP

Issue

Version Description

(41)

4.2.8. SIMBIO-SYS STC TEC Cooling Test (SS-ENG-008)

4.2.8.1. Objectives

The aim of this FOP is to test the functionality of the TEC for STC.

4.2.8.2. Summary of Constraints

SIMBIO-SYS ASW started, STC detector ON.

4.2.8.3. Spacecraft Configuration

Start of Procedure

End of Procedure

4.2.8.4. Reference File(s)

4.2.8.4.1. Input Command Sequences

None

4.2.8.4.2. Output Command Sequences

ASSE008A

ASSE008B

4.2.8.5. Input parameters

Sequence TC par name TC par description

TC par reference Default par value

ASSE008A PSS01603 STC HRIC Temp set point XE008A01 2799

4.2.8.6. TC sequence

Relative time Sequence TC name TC par name TC par description

TC par value

PSS01603 STC HRIC Temp set point XE008A01 00:00:00 ASSE008B ZSS17203 PSS08006 On/Off 0

PSS01603 STC HRIC Temp set point 2799

4.2.8.7. Configuration Control Information

Date

FOP

Issue

Version Description

(42)

4.2.9. SIMBIO-SYS VIHI TEC Cooling Test (SS-ENG-009)

4.2.9.1. Objectives

The aim of this FOP is to test the functionality of the TEC for VIHI.

4.2.9.2. Summary of Constraints

SIMBIO-SYS ASW started, VIHI detector ON.

4.2.9.3. Spacecraft Configuration

Start of Procedure

End of Procedure

4.2.9.4. Reference File(s)

4.2.9.4.1. Input Command Sequences

None

4.2.9.4.2. Output Command Sequences

ASSE009A

ASSE009B

4.2.9.5. Input parameters

Sequence TC par name TC par description TC par reference Default par value

ASSE009A PSS01636 VIHI Temp set point XE009A01 3372

4.2.9.6. TC sequence

Relative time Sequence TC name TC par name TC par description TC par value

PSS01636 VIHI Temp set point XE009A01 00:00:00 ASSE009B ZSS17303 PSS08006 On/Off 0

PSS01636 VIHI Temp set point 3372

4.2.9.7. Configuration Control Information

Date

FOP

Issue

Version Description

28/09/2016 0.2 1 Created

(43)

4.2.10. SIMBIO-SYS Connection Test and Max Length TC (SS-ENG-011)

4.2.10.1. Objectives

The aim of this FOP is to verify TC capability to SIMBIO by uplink of a service 17 connection test or

a "dummy content" max length TC.

4.2.10.2. Summary of Constraints

None

4.2.10.3. Spacecraft Configuration

Start of Procedure

End of Procedure

SIMBIO ON and under ASW control Unchanged

4.2.10.4. Reference File(s)

4.2.10.4.1. Input Command Sequences

None

4.2.10.4.2. Output Command Sequences

ASSE011A

ASSE011B

4.2.10.5. Input parameters

None

4.2.10.6. TC sequence

Relative time Sequence TC name TC par name TC par description TC par value

00:00:00 ASSE011A ZSS01701 00:00:00 ASSE011B ZSS01728